gencpp/test/parsed/HashTable.Parsed.hpp

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#pragma once
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#if GEN_TIME
#define GEN_DEFINE_LIBRARY_CODE_CONSTANTS
#define GEN_ENFORCE_STRONG_CODE_TYPES
#define GEN_EXPOSE_BACKEND
#define GEN_BENCHMARK
#include "gen.hpp"
#include "Array.Parsed.hpp"
using namespace gen;
Code gen__hashtable_base()
{
return parse_global_body( code(
struct HashTable_FindResult
{
sw HashIndex;
sw PrevIndex;
sw EntryIndex;
};
));
}
Code gen__hashtable( StrC type )
{
StringCached name;
{
char const* name_str = str_fmt_buf( "HashTable_%s", type.Ptr );
s32 len = str_len( name_str );
name = get_cached_string({ len, name_str });
}
Code ht_entry = parse_struct( token_fmt( "HashTableName", (StrC)name, "type", type,
stringize(
struct <HashTableName>_Entry
{
u64 Key;
sw Next;
<type> Value;
};
)
));
StringCached ht_entry_name = get_cached_string( token_fmt( "HashTableName", (StrC)name, "<HashTableName>_Entry" ));
Code array_ht_entry = gen__array( ht_entry_name );
Code hashtable = parse_struct( token_fmt( "HashTableName", (StrC)name, "type", type,
stringize(
struct <HashTableName>
{
using Type = <type>;
using Entry = <HashTableName>_Entry;
using Array_Entry = Array_<HashTableName>_Entry;
using FindResult = HashTable_FindResult;
using MapProc = void ( * )( u64 key, Type value );
using MapMutProc = void ( * )( u64 key, Type* value );
static
<HashTableName> init( AllocatorInfo allocator )
{
<HashTableName>
result = { 0 };
result.Hashes = Array_sw ::init( allocator );
result.Entries = Array_Entry::init( allocator );
return result;
}
void clear( void )
{
for ( s32 idx = 0; idx < Hashes.num(); idx++ )
Hashes[ idx ] = -1;
Entries.clear();
}
void destroy( void )
{
if ( Hashes )
Hashes.free();
if ( Entries )
Entries.free();
}
Type* get( u64 key )
{
sw idx = find( key ).EntryIndex;
if ( idx > 0 )
return &Entries[ idx ].Value;
return nullptr;
}
void grow( void )
{
sw new_num = array_grow_formula( Entries.num() );
rehash( new_num );
}
void map( MapProc map_proc )
{
GEN_ASSERT_NOT_NULL( map_proc );
for ( sw idx = 0; idx < Entries.num(); idx++ )
{
map_proc( Entries[ idx ].Key, Entries[ idx ].Value );
}
}
void map_mut( MapMutProc map_proc )
{
GEN_ASSERT_NOT_NULL( map_proc );
for ( sw idx = 0; idx < Entries.num(); idx++ )
{
map_proc( Entries[ idx ].Key, &Entries[ idx ].Value );
}
}
void rehash( sw new_num )
{
sw idx;
sw last_added_index;
HashTable_u32 new_ht = HashTable_u32::init( Hashes.get_header().Allocator );
new_ht.Hashes.resize( new_num );
new_ht.Entries.reserve( new_ht.Hashes.num() );
for ( idx = 0; idx < new_ht.Hashes.num(); ++idx )
new_ht.Hashes[ idx ] = -1;
for ( idx = 0; idx < Entries.num(); ++idx )
{
Entry& entry = Entries[ idx ];
FindResult find_result;
if ( new_ht.Hashes.num() == 0 )
new_ht.grow();
entry = Entries[ idx ];
find_result = new_ht.find( entry.Key );
last_added_index = new_ht.add_entry( entry.Key );
if ( find_result.PrevIndex < 0 )
new_ht.Hashes[ find_result.HashIndex ] = last_added_index;
else
new_ht.Entries[ find_result.PrevIndex ].Next = last_added_index;
new_ht.Entries[ last_added_index ].Next = find_result.EntryIndex;
new_ht.Entries[ last_added_index ].Value = entry.Value;
}
destroy();
Hashes = new_ht.Hashes;
Entries = new_ht.Entries;
}
void rehash_fast( void )
{
sw idx;
for ( idx = 0; idx < Entries.num(); idx++ )
Entries[ idx ].Next = -1;
for ( idx = 0; idx < Hashes.num(); idx++ )
Hashes[ idx ] = -1;
for ( idx = 0; idx < Entries.num(); idx++ )
{
Entry* entry;
FindResult find_result;
}
}
void remove( u64 key )
{
FindResult find_result = find( key );
if ( find_result.EntryIndex >= 0 )
{
Entries.remove_at( find_result.EntryIndex );
rehash_fast();
}
}
void remove_entry( sw idx )
{
Entries.remove_at( idx );
}
void set( u64 key, Type value )
{
sw idx;
FindResult find_result;
if ( Hashes.num() == 0 )
grow();
find_result = find( key );
if ( find_result.EntryIndex >= 0 )
{
idx = find_result.EntryIndex;
}
else
{
idx = add_entry( key );
if ( find_result.PrevIndex >= 0 )
{
Entries[ find_result.PrevIndex ].Next = idx;
}
else
{
Hashes[ find_result.HashIndex ] = idx;
}
}
Entries[ idx ].Value = value;
if ( full() )
grow();
}
sw slot( u64 key )
{
for ( sw idx = 0; idx < Hashes.num(); ++idx )
if ( Hashes[ idx ] == key )
return idx;
return -1;
}
Array_sw Hashes;
Array_Entry Entries;
protected:
sw add_entry( u64 key )
{
sw idx;
Entry entry = { key, -1 };
idx = Entries.num();
Entries.append( entry );
return idx;
}
HashTable_FindResult find( u64 key )
{
FindResult result = { -1, -1, -1 };
if ( Hashes.num() > 0 )
{
result.HashIndex = key % Hashes.num();
result.EntryIndex = Hashes[ result.HashIndex ];
while ( result.EntryIndex >= 0 )
{
if ( Entries[ result.EntryIndex ].Key == key )
break;
result.PrevIndex = result.EntryIndex;
result.EntryIndex = Entries[ result.EntryIndex ].Next;
}
}
return result;
}
b32 full( void )
{
return 0.75f * Hashes.num() < Entries.num();
}
};
)
));
return def_global_body( args( ht_entry, array_ht_entry, hashtable ));
}
struct GenHashTableRequest
{
StrC Dependency;
StrC Type;
};
Array<GenHashTableRequest> GenHashTableRequests;
void gen__hashtable_request( StrC type, StrC dep = {} )
{
do_once_start
GenHashTableRequests = Array<GenHashTableRequest>::init( GlobalAllocator );
gen_array( sw );
do_once_end
// Make sure we don't already have a request for the type.
for ( sw idx = 0; idx < GenHashTableRequests.num(); ++idx )
{
StrC const reqest_type = GenHashTableRequests[ idx ].Type;
if ( reqest_type.Len != type.Len )
continue;
if ( str_compare( reqest_type.Ptr, type.Ptr, reqest_type.Len ) == 0 )
return;
}
GenHashTableRequest request = { dep, type };
GenHashTableRequests.append( request );
}
#define gen_hashtable( type ) gen__hashtable_request( code(type) )
u32 gen_hashtable_file()
{
Builder
gen_hashtable_file;
gen_hashtable_file.open( "hashtable.Parsed.gen.hpp" );
gen_hashtable_file.print( def_include( txt("gen.hpp")) );
gen_hashtable_file.print( def_include( txt("Array.Parsed.hpp")) );
gen_hashtable_file.print( def_include( txt("array.Parsed.gen.hpp")) );
gen_hashtable_file.print( def_using_namespace( name(gen)));
gen_hashtable_file.print( gen__hashtable_base());
GenHashTableRequest* current = GenHashTableRequests;
s32 left = GenHashTableRequests.num();
while (left--)
{
GenHashTableRequest const& request = * current;
Code generated_buffer = gen__hashtable( current->Type );
if ( request.Dependency )
{
char const* cmt_str = str_fmt_buf( "// Dependency for %s type", request.Type );
s32 cmt_len = str_len( cmt_str );
Code cmt = def_comment( { cmt_len, cmt_str } );
Code include = def_include( request.Dependency );
gen_hashtable_file.print( cmt );
gen_hashtable_file.print( include );
}
gen_hashtable_file.print( generated_buffer );
current++;
}
gen_hashtable_file.write();
return 0;
}
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#endif // GEN_TIME